DFIG Wind Turbine Controlled by Sliding Mode and Fuzzy-Sliding Control Modes

Algerian Journal of Signals and Systems Pub Date : 2023-06-30 DOI:10.51485/ajss.v8i1.180

A. Benfdila, Zahira Bouguerra

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Abstract

Many non-linear controllers have been used to improve system performances and robustness of double fed induction machine (DFIG) based wind turbines like sliding mode control (SMC). However, this type of controller is less efficient due to a sign function that can lead to chattering phenomenon. To overcome this deficiency, the function is replaced by fuzzy logic control (FLC). This is what is proposed in this paper which deals with doubly fed induction generator (DFIG) based wind turbine conversion system (WECs) by sliding mode control and fuzzy sliding mode control (FSMC). The system control have been applied to the back to back converters that connect rotor windings to the grid, For the rotor side converter (RsC), we have presented sliding mode control, and fuzzy sliding mode control to monitor active and reactive powers independently, when the grid side converter (GsC) was set to keep a constant DC voltage with a desired power factor. The effectiveness of the proposed control systems is tested using Matlab/Simulink software under a wind speed fluctuation and parameters variation. The simulation results showed that the FSMC is more robust and has better dynamic performances than the SMC control

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滑模和模糊滑模控制的DFIG风力机

滑模控制(SMC)等非线性控制器被用于提高双馈感应电机(DFIG)风力发电机组的系统性能和鲁棒性。然而，由于符号函数可能导致抖振现象，这种类型的控制器效率较低。为了克服这一缺陷，该功能被模糊逻辑控制(FLC)所取代。本文提出了基于双馈感应发电机(DFIG)的风电机组转换系统的滑模控制和模糊滑模控制(FSMC)。将系统控制应用于连接转子绕组与电网的背对背变流器，对于转子侧变流器，我们提出了滑模控制和模糊滑模控制，当电网侧变流器(GsC)被设定为保持一个恒定的直流电压和所需的功率因数时，分别监测有功和无功功率。利用Matlab/Simulink软件对所提出的控制系统在风速波动和参数变化情况下的有效性进行了测试。仿真结果表明，FSMC控制具有较好的鲁棒性和动态性能

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Algerian Journal of Signals and Systems

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